OCM for Quantum Mechanics Series Conferences

Organizing Committee

Biography

Louis M. Houston has completed his PhD in the year 1986 at the age of 29 years from Rice University, Houston TX. He is a retired associate professor of physics and senior research scientist from the University of Louisiana at Lafayette, USA. He has published over 25 papers in reputed journals and has been serving as an editorial board member of the Journal of Geophysics and Engineering since the year 2005. He has been a fellow of the Institute of Physics (IOP) since the year 2004. During the years 1986 to 1994, he was a research physicist at Exxon Production Research Company in Houston, TX. He has a diverse range of interests which include painting and music. In both of these areas, he has worked professionally. He has a strong interest in quantum mechanics and information theory, but also has interests in philosophy, including Eastern philosophy. He currently resides in Lafayette, LA, has a mother and two sisters and maintains a close family relationship.

Research Interest

Unified field theory, in particle physics is an attempt to describe all fundamental forces and the relationship between elementary particles in terms of a single theoretical framework. In physics, fields that mediate interactions between separate objects can describe forces. In the mid 19th century James Clerk Maxwell formulated the first field theory in his theory of electromagnetism. Then, in the early part of the 20th century, Albert Einstein developed general relativity, a field theory of gravitation. Later, Einstein and others attempted to construct a unified field theory in which electromagnetism and gravity would emerge as different aspects of a single fundamental field . They failed, and to this day gravity remains beyond attempts at a unified field theory. At subatomic distances, fields are described by quantum field theories, which apply the ideas of quantum mechanics to the fundamental field. In the 1940s quantum electrodynamics (QED), the quantum field theory of electromagnetism, became fully developed. The electroweak interaction is the unified description of two of the four known forces: electromagnetism and the weak interaction. Although these two forces appear very different at everyday low energies, the theory models them as two different aspects of the same force. It is generally believed that a successful grand unified theory (GUT) will still not include gravity. The problem here is that theorists do not yet know how to formulate a workable quantum field theory of gravity based on the exchange of a hypothesized graviton. The current quest for a unified field theory is largely focused on superstring theory and in particular, on an adaptation known as M-theory. We have discovered that a de Broglie matter field is a coupled solution to electromagnetism, quantum mechanics, gravity and the strong force. For ε an extremely small number, the wave packet is considered in the inertial frame of an orbiting mass that is moving at (c-ε) perpendicular to the orbit and based on the de Broglie condition for integral wavelengths [16-17]. For these waves, mass and time are set equivalent to radius, allowable because the theory uses Planck units and time is heavily dilated. The “charge” of this field is not that of the electron, but Maxwell’s equations are precisely satisfied. The de Broglie field yields a quantum mechanical wave function that satisfies a version of Schrodinger’s equation and the de Broglie field also yields the Einstein equations of general relativity and a Yukawa potential for the strong force. The theory assumes the already proven electro-weak force.

Organizing Committee - Quantum Mechanics 2018

Biography

Professor in the Faculty of Science and Tier I Canada Research Chair, Roderick Melnik is an applied mathematician and scientist with over 25 years of academic and industrial research experience. He is the director of the MS2Discovery Interdisciplinary Research Institute. Prior to his appointment in Canada, Melnik held full professorships in the U.S.A. and Denmark, while in the late 1990s, he held the position of senior mathematician at the Commonwealth Scientific and Industrial Research Organisation (CSIRO) in Sydney, Australia. He received his PhD in Computational Mathematics and his MSc in Applied Mathematics from Kiev State University in 1989 and 1985, respectively. Melnik has been a recipient of a number of awards, including prestigious fellowships in Italy, Denmark, England and Spain. He has published over 300 refereed research contributions in the field of applied mathematics, computational science and mathematical modelling in sciences and technology. He serves on editorial boards and has been a guest editor of many international journals and book series. He is a member of such professional societies as SIAM, ASME, CAIMS, AustMS and its ANZIAM Division.
Roderick Melnik is head of the M2NeT Laboratory (Mathematical Modelling for New Technologies) and is affiliated with the University of Waterloo and the University of Guelph, as well as with the Guelph-Waterloo Institute of Physics.

Research Interest

Nano- and Bio-nano technologies, in new technologies based on smart materials and structures, Biocompatible materials and Bio-inspired systems, and in other areas.

Biography

Professor Eduard Babulak is accomplished international scholar, researcher, consultant, educator, professional engineer and polyglot with more than thirty years of teaching experience and industrial experience as a professional engineer and consultant. He was Invited Speaker at University of Cambridge, MIT, Yokohama National University and University of Electro Communications in Tokyo, Kyushu Institute of Technology and Institute of Industrial Applications Engineers (IIAE) in Japan, Shanghai Jiao Tong University in China, Sungkyunkwan University in South Korea, University at West Indies and Penn State, USA.Professor Eduard Babulak is accomplished international scholar, researcher, consultant, educator, professional engineer and polyglot with more than thirty years of teaching experience and industrial experience as a professional engineer and consultant. He was Invited Speaker at University of Cambridge, MIT, Yokohama National University and University of Electro Communications in Tokyo, Kyushu Institute of Technology and Institute of Industrial Applications Engineers (IIAE) in Japan, Shanghai Jiao Tong University in China, Sungkyunkwan University in South Korea, University at West Indies and Penn State, USA.

Research Interest

Biography

Internationally renowned author of academic writings in both science and humanities, his top books belong to British National Bibliography and British Library Catalogue. Editor-in-chief, editorial board member, and peer reviewer to multiple academic journals. Organizing committee member to multiple academic conferences. He began at Joint Institute for Nuclear Research in Dubna, Russia. He was a senior research fellow at B.M. Birla Science Centre in Hyderabad, India. He got B.Sc. degree in physics from Peoples’ Friendship University of Russia in Moscow, Russia.

Research Interest

Biography

Prof. Arun Kumar Pati is a leading scientist in Quantum Information and Computation. Currently, he is at Harish-Chandra Research Institute, Allahabad, India. He has visited and delivered talks at many Universities and Institutes including University of Bristol, UK, MSRI, Berkely, University of California, MIT, Boston, USA, Bell Lab, NJ, USA, Naval Research Lab, Washington DC, USA, JPL, NASA, USA, University of South Carolina, USA, University of New Mexico, USA, Perimeter Institute, Waterloo, Canada and many more.

Research Interest

His research areas include several aspects of quantum information and quantum computation and the foundations of quantum mechanics. Among his important discoveries are the No-Deletion theorem, Geometric Phases for mixed state, Remote State Preparation protocol, the No-Hiding Theorem and the Stronger Uncertainty Relations in quantum mechanics. He has more than 150 research papers in international journals and conferences on these topics. He has edited two books: (i) Quantum Information with Continuous Variables and (ii) Quantum Aspects of Life. His research papers have been highlighted in NATURE, NATURE ASIA, SCIENCE, and many national and international newspapers.

Biography

Vladimir V. Rumyantsev is Head of Department of Theory of Complex Systems Dynamic Properties at A.A. Galkin Donetsk Institute for Physics and Engineering (DonIPE). He is Professor of Theoretical Physics and Nanotechnology Department at Donetsk National University (DonNU). He received PhD in Theoretical Physics (1988) from DonNU and Dr. Sci. in Condensed Matter Physics (2007) from DonIPE. Prof. Rumyantsev has authored/co-authored 4 books, 2 chapters in books and more than 240 scientific publications. He is a member of the American Physical Society as well as Mediterranean Institute of Fundamental Physics (MIFP, Italy) and Editor-in-Chiff of Journal of Photonic Materials and Technology (Science PG, USA).

Research Interest

Current research interests include various aspects of solid state physics, crystallooptics, photonics; more particularly - theoretical study of the effects of disorder in quasi-two-dimensional nanofilms and layered structures caused by the propagation of electromagnetic and acoustic excitations, light-matter coupling in composite nanostructures

Biography

Ephraim Suhir is on the faculty of the Portland State University Portland, USA, and Technical University, Vienna, Austria. He is also CEO of the Small Business Innovative Research (SBIR) ERS Co. in Los Altos, CA, USA. Ephraim is Foreign Full Member (Academician) of the National Academy of Engineering, Ukraine (he was born in that country); IEEE Life Fellow; Fellow of the American Physical Society (APS), the American Society of Mechanical Engineers (ASME), the Institute of Physics (IoP), UK, the Society of Optical Engineers (SPIE), the International Microelectronics and Packaging Society (IMAPS), the Society of Plastics Engineers (SPE), and Associate Fellow of the American Institute of Aeronautics and Astronautics (AIAA) . Dr. Suhir has authored about 400 publications (patents, technical papers, book chapters, books), presented numerous keynote and invited talks worldwide, and received many professional awards, including 2004 ASME Worcester Read Warner Medal for outstanding contributions to the permanent literature of engineering (he is the third Russian American, after S. Timoshenko and I. Sikorsky, who received this prestigious award); and 1996 Bell Laboratories Distinguished Member of Technical Staff (DMTS) Award for developing effective methods for predicting the reliability of complex structures used in AT&T and Lucent Technologies products.

Biography

Yury Bunkov is the leading specialist in the area of ultra-low temperatures and magnetism. His group discovered experimentally the magnons Bose-Einstein condensation in antiferromagnetic superfluid 3He-B. This discovery was marked by a prestigious International Fritz London memorial prize, Duke University, USA “For the discovery and understanding of macroscopic phase-coherent spin precession and the flow of spin supercurrent”. This discovery starts a new branch of physics-supermagnonics-a quantum transport of magnetization. The magnon spin supercurrent, Josephson Effect, phase slippage, magnon quantum vortices, Goldstone modes etc. have been observed. Later Yury Bunkov observed the magnons BEC in 3He-A, in antiferromagnetic crystals and in YIG film. Prof. Bunkov is well known for his experiments for simulation of cosmic string formation after a Big Bang by nuclear fusion reaction in superfluid 3He and other experimental simulations of the Universe in superfluid 3He. He also developed the new type of Dark matter detector “ULTIMA” on a basis of superfluid 3He at a temperature of 100 mkK. Yury Bunkov starts his carrier in the Kapitza Institut, Moscow and then work in Institute Neel, Grenoble for 25 years as a director de recherché. He is the laureate of State Prize of Russia (1993) and a member of Academia Europaea (London).

Organizing Committee - Quantum Physics 2017

Biography

Eliade Stefanescu, graduate of Faculty of Electronics, Section of Physicist Engineers in 1970, and PhD in Theoretical Physics in 1990, is a professional with multidisciplinary openness. In 1975 he followed a specialization course in physics of semiconductor devices, and, as a Scientist from 1976, and a Senior Scientist III from 1978, he worked in the field of dynamical characterization of semiconductor devices. From 1978, he worked in physics of optoelectronic devices, especially in optical bistability. From 1987, and from 1990 as a Senior Scientist II, he worked in the field of open quantum physics. In 1989 he predicted a phenomenon of amplification of a coherent electromagnetic field on the account of the environmental heat, and in 1991 discovered that the penetrability of a potential barrier can be increased by coupling to a dissipative system – thus, he described the decay spectrum of some cold fission modes. As a Senior Scientist I, from 1997 he developed a microscopic theory of open quantum systems, discovered a physical principle for the heat conversion into usable energy, invented semiconductor devices, and gave an analytical, microscopic description of the involved phenomena. In 2014, he produced a unitary relativistic quantum theory. In the years 1995-2000, he held a course called Dissipative Systems, in a program of the Polytechnic University of Bucharest for the master degree. He collaborated with scientists from the Institute of Theoretical Physics in Giessen, Germany, and the Department of Theoretical Nuclear Physics of the Royal Institute of Technology in Stockholm, Sweden.

Biography

Professor Rodney Loudon MA DPhil Oxf, FRS is an Emeritus Professor at the School of Computer Science and Electronic Engineering of University of Essex.
Rodney Loudon's work focuses on various aspects of theoretical solid state and laser physics, and particularly on light scattering. His 1964 paper on the Raman effect was one of the 100 most cited papers in all areas of physical science between 1960 and 1969. He has published more than 190 papers and 3 books, one of which(the three editions of The Quantum Theory of Light) has a very high international reputation and has been translated into Russian and Japanese.
His Early work on excitons, phonons and magnons and his later treatments of non-classical effects in the statistical properties of light have attracted many citations. His most recent work on surface excitations and on optical amplification, attenuation and detection has also proved to be important.
Rodney has played a full role at the University of Essex as Professor, Chairman and Dean. He has also workedat BT, RRE, Bell Telephone Laboratories and RCA.

Biography

Professor in the Faculty of Science and Tier I Canada Research Chair, Roderick Melnik is an applied mathematician and scientist with over 25 years of academic and industrial research experience. He is the director of the MS2Discovery Interdisciplinary Research Institute. Prior to his appointment in Canada, Melnik held full professorships in the U.S.A. and Denmark, while in the late 1990s, he held the position of senior mathematician at the Commonwealth Scientific and Industrial Research Organisation (CSIRO) in Sydney, Australia. He received his PhD in Computational Mathematics and his MSc in Applied Mathematics from Kiev State University in 1989 and 1985, respectively. Melnik has been a recipient of a number of awards, including prestigious fellowships in Italy, Denmark, England and Spain. He has published over 300 refereed research contributions in the field of applied mathematics, computational science and mathematical modelling in sciences and technology. He serves on editorial boards and has been a guest editor of many international journals and book series. He is a member of such professional societies as SIAM, ASME, CAIMS, AustMS and its ANZIAM Division.
Roderick Melnik is head of the M2NeT Laboratory (Mathematical Modelling for New Technologies) and is affiliated with the University of Waterloo and the University of Guelph, as well as with the Guelph-Waterloo Institute of Physics.

Biography

Accomplished undergraduate study in
Sankt Petersburg State University. In 1974 graduated from the
University with the diploma in theoretical physics. In 1974 was em-
ployed by the Mathematical Institute of Academy of Sciences of Rus-
sia. Accomplished his graduate and Post Doctoral studies in this
Institute. He worked in this Institute until 1989. Currently, he is a
full professor with tenure in the Yang Institute for Theoretical Physics
of State University of New York at Stony Brook. PI obtained Ph.D.
degree in mathematical physics in 1977 from Mathematical Institute
of the Academy of Sciences of the Russia in Moscow. His Ph. D
adviser was L.D. Faddeev. In 1985 was awarded the degree of doc-
tor of sciences in mathematical physics by the Council of Ministers
of Russian Federation. In 1978 his paper 'Quantum Solitons' was
recognized as the best paper of the year by Russian Academy of Sci-
ences. PI published about 265 papers in theoretical and mathematical
physics. Currently works on quantum entanglement. He also have re-
sults important for mathematics: In 1982 he introduced domain wall
boundary conditions for six vertex model, which played a major role
in algebraic combinatorics [Alternating Sign Matrices, domino tiling,
Young diagrams].
He was elected fellow of American Physical Society in 1996.
He was elected fellow of International Association of Mathematical Physics in 1993.
He was elected fellow of of the Institute of Physics in 19998.
He is an Editor journals: Quantum Information Processing and
Reviews in Mathematical Physics.

Biography

Dr Hazel Cox is a Senior Lecturer in Chemistry at the University of Sussex. Her first degree is in mathematics and for her PhD she used computer algebra to solve the Schrödinger equation for three particle systems. Her research interests involve using quantum chemistry to determine the underlying chemical and physical properties responsible for the structure, reactivity and spectroscopy of metal-ligand complexes and to probe the boundaries of current methodologies by exploring the fundamental interactions in few particle Coulomb systems.

Research Interest

Biography

John R. Sabin is Professor Emeritus of Physics at the University of Florida and Adjunct Professor at the University of Southern Denmark.

Research Interest

His main research interest is in the interaction between high energy radiation and matter, in particular the stopping power of materials. The characteristics of the deposition of energy in matter by swift, massive particles is of interest in areas ranging from design of inertial confinement fusion devices to radiation therapy. The understanding and prediction of the processes involved in such energy deposition provide the unifying theme of the research. The research program has three distinct but interrelated parts dealing with:
• stopping in atoms and molecules, with especial emphasis on aggregation effects
• stopping in ultra-thin (several atomic layers) films as models for imbedded layers, overlayers and interfaces and as intermediates between gas and solid targets
• trajectory dependent stopping if swift ions under channeling conditions in bulk targets

Biography

Prof. Patrick Siarry was born on May 28, 1952, in Pertuis. His
research area is relatively (since 1982) new “metaheuristic”
optimization such as simulated annealing, which are indicated for
the so-called problems of “hard optimization” because of their
ability to avoid in principle, trapping in sub-optimal solutions.
This topic is multidisciplinary in nature, both by the source of the
methods studied (physics, biology, ethology). Much of his work is
explicitly one or the other keywords – in particular, modeling,
identification, learning rule bases (artificial intelligence), control,
nondestructive testing and maintaining the biological and medical
engineering.

Biography

Lukasz Andrzej Glinka, born on October 5, 1984 in Poland, is internationally recognized as a voluntary editor and reviewer at the think tanks of open-access journals, science author, non-fiction and philosophy writer. He is the Editor-in-Chief for the Journal of Astrophysics and Aerospace Technology of the OMICS Group, and an Organizing Committee Member to the International Conference on Astrophysics and Particle Physics, December 8-10, 2016, Dallas, Texas, USA. He gave more than 25 oral presentations to scientific conferences, either authored or co-authored more than 40 journal articles and papers, and authored 4 books in science and humanities among which one can find a comprehensive monograph in theoretical physics and applied mathematics. He holds BSc in physics from the Peoples' Friendship University of Russia, is a biographee of Marquis Who's Who, and a member at the American Association of International Researchers which belongs to the American Research Institute for Policy Development.

Biography

Arun Kumar Pati is an Indian physicist notable for his research in quantum information and computation, the theory of geometric phases and its applications, as well as quantum mechanics. He is considered an important physicist in the field of quantum information and quantum computation in India, perhaps the first. Pati obtained his PhD from the University of Bombay, Mumbai. In 1989, he took up a position as a theoretical physicist in the Theoretical Physics Division, BARC, Mumbai, India. From 1998-2000, he was a visiting scientist and an EPSRC fellow at the University of Wales, Bangor, UK. He was a visiting scientist at the Institute of Physics, Bhubaneswar, India from 2001-2010. Currently, he is a Professor of Quantum Information at the Harish Chandra Research Institute, Allahabad, India since 2011. He is honored with K. P. Chair Professorship at Zhejiang University, Hangzhou, China during the period 2013-2015.

Research Interest

Current research topics include all aspects of quantum information, in particular quantum entanglement, quantum correlations, quantum speed limit, weak measurements, stronger uncertainty relations, monogmy and polygamy of various correlation measures, quantum coherence, entanglement in non-Hermitian quantum theory and their consequences. I have been also collaborating with experimentalists to test some of our theoretical predictions.

Biography

Dr. Na Young Kim leads Quantum Innovation (QuIN) laboratory, aiming to build large-scale quantum processors based on novel materials and advanced technologies. Two projects are under way: (1) the semiconductor quantum processors project establishes controllable optical and electrical domains, where we learn the insights of exotic materials and fundamental nature of symmetries; (2) the project of the multi-functional classical and quantum device arrays establishes a planar architecture comprising of nano-scale devices with electrical, optical, thermal and mechanical functionality. Her major contributions in quantum information science were published in Nature, Nature Physics and Physical Review Letters. She has delivered more than 50 invited speeches at international venues, and organized international conferences.

Research Interest

Biography

Prof. Patrick Siarry was born on May 28, 1952, in Pertuis. His
research area is relatively (since 1982) new “metaheuristic”
optimization such as simulated annealing, which are indicated for
the so-called problems of “hard optimization” because of their
ability to avoid in principle, trapping in sub-optimal solutions.
This topic is multidisciplinary in nature, both by the source of the
methods studied (physics, biology, ethology). Much of his work is
explicitly one or the other keywords – in particular, modeling,
identification, learning rule bases (artificial intelligence), control,
nondestructive testing and maintaining the biological and medical
engineering.

Biography

Dr. Laurent Labonté studied in the University of Limoges (FRANCE) where he received a Master's degree in "optical and high frequency telecommunication" (University of Limoges, France). He obtained the PhD degree in Physics in 2005 on both experimental and numerical study of microstructured fiber for non-linear optics and astronomy. From 2005 to 2006, he was an assistant professor. In 2006, he joined the group “Quantum Information with Light & Matter” of the Laboratory of condensed matter physics (LPMC), as an associate professor of the University of Nice - Sophia Antipolis. His research activities focus on generating, distributing and manipulating quantum information at telecom wavelength.

Research Interest

Biography

M. Zahid Hasan is a Professor of Physics at Princeton University. He obtained his Ph.D. in 2002 from Stanford University, working at SLAC and Brookhaven National Laboratory. He is an expert in the physics of quantum matter, emergent phenomena in electron systems, and advanced spectroscopic high resolution imaging techniques. His research has focused on quantum Hall-like topological phases, exotic superconductors, quantum phase transitions, and topological quantum matter. He played a pioneering role in the experimental discoveries of bulk topological insulators, helical topological superconductors, Weyl fermion materials and related new forms of quantum matter. A highly-cited researcher world-wide, he has published more than 120 papers in many reputed journals.

Research Interest

Biography

Prof. Yoshihisa Yamamoto is working at E.L. Ginzton Laboratory of Stanford University, Stanford, CA, USA and National Institute of Informatics, Tokyo, Japan. His group is primarily concerned with studying quantum dynamics of spin and exciton in semiconductor nanoscale systems. His experimental project combines ultrafast optical spectroscopy with semiconductor microcavities with artificial atoms (quantum dots or impurities) at low temperatures and high magnetic fields.

Research Interest

Yamamoto's current research interests are in the areas of quantum information, quantum optics, and mesoscopic physics such as squeezed states, quantum nondemolition measurements, cavity quantum electrodynamics, quantum computers, and mesoscopic electron transport and tunneling.

Biography

Research Interest

Biography

Padmanaban Sanjeevikumar (M’12, SM’15) received B.E., M.Tech. (with distinction), and Ph.D degree in electrical engineering from University of Madras (India), Pondicherry University (India), and University of Bologna (Italy), in 2002, 2006, and 2012 respectively. He pursued his doctoral degree with full comprehensive grant successfully obtained from Ministry of University Research (MIUR), from the government of Italy (Jan. 2009 - Dec. 2011) by securing 120/130 with the merit of first rank among International Competition devoted for one foreign Ph.D scholarship position. After completing his Ph.D degree he worked as Associate Professor with VIT University from August 2012 to May 2013. Furthermore he joined as Faculty with National Institute of Technology, Pondicherry, from July 2013 to December 2013. He was invited as visiting researcher at Department of Electrical Engineering, Qatar University, Qatar from January 2014 to February 2014 funded by Qatar National Research Foundation (Government of Qatar). He continued his research activities with Dublin Institute of Technology, Ireland from April 2014 to September 2014. Presently, from September 2014, he is Project Head in Research & Development and Consultant with Ohm Technologies, Chennai, India.He has received the Best Paper cum Most Excellence Research Paper Award of IET-SEISCON 2013. He was invited as honorary program committee/technical committee/steering committee member/chair for more than 400 plus various international, national conferences and includes IEEE.

Research Interest

Biography

Dr. Mary Mehrnoosh Eshaghian-Wilner has over 26 years of research experience in various areas within the field of Computer Engineering. Additionally, she has worked in the area of patent law for several years. She has published numerous scientific papers, including two books, and has handled the prosecution and infringement analysis of many complex U.S. and international patents. Dr. Eshaghian-Wilner currently is a Professor of Engineering Practice at the Electrical Engineering-Systems Department at the University of Southern California (USC), and since 2004 has been an Adjunct Professor of Electrical Engineering at the University of California, Los Angeles (UCLA). Prior to joining UCLA, she was a tenured full Professor and Department Head at the Computer Engineering Department of Rochester Institute of Technology. Professor Eshaghian-Wilner is best known for her pioneering contributions to three areas of Optical Computing, Heterogeneous Computing, and Nanoscale Computing. In the area of Optical Computing, she produced one of the first theses that dealt with the computational aspects of optical interconnects for VLSI chips. The OMC model was developed by Professor Eshaghian-Wilner as part of her Ph.D. work, and since then, many architectures and algorithms have been designed by on that model.

Biography

Yukio Tomozawa obtained DSc in 1961 from Tokyo University. He was Assistant at Tokyo University (1956- ), and at Tokyo University of Education (1957-1959): Member at the Institute for Advanced Study, Princeton, NJ (1964-1966). He was Assistant Professor (1966- ), Associate Professor (1968- ), Professor (1972- ) and Emeritus Professor (2003- ) at the University of Michigan, USA.
Research Interest: Dr. Tomozawa found that the Schwarzschild metric does not fit the data of time delay experiment in the field of general relativity. He has introduced a physical metric which fits the data. It was constructed with the constraint that the speed of light on the spherical direction is unchanged from that in vacuum. This modification changes the way we understand the nature of gravity drastically. In particular, the nature of compact objects, neutron stars and black holes, is very different from that described by the Schwarzschild metric. It also explains the dark energy, supernova explosion and high energy cosmic ray emission from AGN (Active Galactic Nuclei), massive black holes.

Research Interest

Biography

V.V. Rumyantsev is Professor in Nanophysics Department at Donetsk National University (DonNU) and Head of Physics Technology Subdivision at A.A. Galkin Donetsk Institute for Physics and Engineering (DonPhTI). He received PhD in Physics (1988) from DonNU and Dr. Sci. in Solid State Physics (2007) from DonPhTI. He has published more than 200 scientific publications. Prof. Rumyantsev is Group Leader of International project in the framework of the European program FP7-PEOPLE-2013-IRSES (2013-2016).

Research Interest

Biography

O.Hirota has received his PhD at 1979 from Tokyo Institute of Technology (Japan). He is director of the Quantum ICT Research Institute of Tamagawa University, and one of pioneer of quantum information science. He has established in 1990 International Conference on Quantum Communication, Measurement and Computing (QCMC). Number of his published papers in particular on quantum state discrimination theory and entangled coherent state are more than 100.

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